JP2001359150A - Method for assigning id to control station and base station in imt-2000 system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To immediately and simply assign an ID to each system by realizing the ID assignment to control stations and base stations by means of a software program. SOLUTION: A network control center 100 discriminates whether or not the system is initialized. When the system is initialized, the center 100 transmits control station assignment ID data to all control stations belonging to the system to assign specific IDs and group IDs to all the control stations. Each of the control stations receives the control station ID assignment data sent from the network control center 100 and analyzes the ID assignment data to recognize its own specific ID and the group ID. The control stations transmit base station ID assignment data to all base stations connected to themselves to assign specific IDs to all the base stations. The base stations read type information stored their own internal memories to recognize their own types.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an IMT (Internat
ional Mobile Telecommunication) -A method for assigning IDs to a control station and a base station in a 2000 system, and more particularly, to a control station and a base station in an IMT-2000 system that implements identification of a control station and a base station by software. It relates to a method of assigning an ID.

[0002]

2. Description of the Related Art A conventional IMT-2000 system assigns an ID to each system by using a hardware method in which a ROM in which a unique ID is stored is mounted in a base station. RO
Not only does the production cost increase due to the installation of M, but also when the ID information unique to each base station is changed, there is an inconvenient problem that the operator must directly replace the ROM.

[0003] DCS / PC of a conventional mobile communication system in which one or more base stations operate in conjunction with one or more exchanges.
Unlike the S mode, in the IMT-2000 system, one or more base stations are connected to one or more network control centers (OMCs).
network control center should distinguish a plurality of connected base stations, but in a conventional mobile communication system, a specific ID for identifying a plurality of base stations is not used. Since it was not assigned to each base station, it was difficult for the network control center to identify a plurality of base stations.

[0004]

SUMMARY OF THE INVENTION Accordingly, an object of the present invention is to provide an ID assigning operation for a plurality of control stations and base stations in a software manner so as to realize each system. IMT-2 to make it possible to perform ID assignment for
An object of the present invention is to provide an ID assignment method for each system in the 000 system.

[0005]

To achieve the above object, the present invention according to claim 1 comprises a plurality of base stations, a plurality of control stations, and a network for managing the control stations and the base stations. Control Center (OMC (operating and main
a method for assigning IDs to each control station and each base station in the IMT-2000 system comprising the following steps: a first step of determining whether or not system initialization has been performed by the network control center; ,
If the system initialization has not been performed, the process returns to the first step again. On the other hand, if the system initialization has been performed, the control station IDs are assigned to all control stations belonging to the network control center. Transmit the assignment data,
A second step of allocating unique control station IDs and group IDs corresponding to all control stations, and in each of the plurality of control stations, receiving control station ID allocation data transmitted by the network control center, A third step of analyzing the control station ID and the group ID of its own, and transmitting the base station ID assignment data to all base stations connected to the plurality of control stations. A fourth step of allocating a unique base station ID corresponding to the base station, and a base station ID transmitted by the control station in each of the plurality of base stations.
Receiving the allocation data, analyzing the base station ID allocation data, and recognizing the unique base station ID.

According to a second aspect of the present invention, in the method according to the first aspect, in the second step, the network control center transmits a first ID assignment request signal from one of a plurality of control stations. A sixth step of determining whether or not the first ID has been received;
If the assignment request signal has not been received, the process proceeds to the sixth step again, while if the ID assignment request signal has been received, the network control center sends the control station ID assignment data to its control station. A seventh step of transmitting an ID and a corresponding unique control station ID and a group ID, and an eighth step of determining whether or not all of the ID allocation operations for the plurality of control stations have been performed by the network control center; If the ID allocation operation has not been completely performed in the eighth step, the process proceeds to the sixth step again. On the other hand, if the ID allocation operation has been completely performed, the network control center determines whether the plurality of Unique control station ID and group ID assigned to the control station
To perform a management operation on a plurality of control stations by using
And steps.

According to a third aspect of the present invention, in the method according to the second aspect, the control station ID allocation data includes an 8-bit control station group ID area, an 8-bit control station ID area, and a 16-bit reserved area. This is 32-bit data including the area.

According to a fourth aspect of the present invention, in the method according to the first aspect, the fourth step includes the step of transmitting a second ID from any one of a plurality of base stations belonging to each of the plurality of control stations. A tenth step of determining whether an assignment request signal has been received, and if the second ID assignment request signal has not been received from any one of the base stations, proceed to the tenth step again; An eleventh step in which, when the second ID assignment request signal is received, the plurality of control stations transmit base station ID assignment data to the base station and assign a corresponding unique base station ID; A twelfth step of determining whether or not all of the ID assignment operations for the plurality of base stations belonging to each of the control stations have been performed; and
Proceeding again to the tenth step, on the other hand, if all of the ID assignment operations have been performed, each of the management operations for the plurality of base stations is performed using the base station IDs assigned to the plurality of base stations. 13th step to be performed.

A method according to a fifth aspect is the method according to the fourth aspect, wherein the base station ID assignment data includes a base station ID area of 13 bits, a base station type area of 3 bits,
It is a total of 32 bits of data including a 6-bit reserved area.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The most preferred embodiments of the present invention will be described below with reference to the accompanying drawings.

FIG. 1 is a block diagram showing an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration of a network control center, a plurality of control stations, a plurality of base station ID assigning devices, and the like in the MT-2000 system.

The Network Control Center (OMC (oper
ating and maintenance center)) is IMT-200
0 system is connected to a plurality of control stations, and each control station is connected to a plurality of base stations.

As shown in FIG. 1, the network control center 100 is a system for managing the plurality of control stations by grouping them and managing a plurality of base stations. Is received, a unique ID for all control stations and group I
In addition to assigning D, the terminal performs a management operation on the plurality of control stations using the ID information.

On the other hand, the plurality of control stations each manage a plurality of base stations connected thereto, and perform a call processing-related operation through communication with each base station,
When the system is initialized, the network control center 100
The network control center 100 transmits an ID assignment request signal to the network control center 100 to give its own unique ID and group ID, and performs call processing-related operations using its own ID information, while managing the plurality of Base station to I
When the D assignment request is received, a unique ID is assigned to all the base stations, and a role of performing a management operation on the plurality of base stations using the ID information.

The plurality of base stations may be embodied as one of a macro type, a micro type, and a pico type, and each of the plurality of base stations may be associated with its own type. The information is stored in an internal memory, and at the time of system initialization, an ID assignment request signal is transmitted to a control station connected to each of them, whereby the control station is given its own unique ID, and It performs a call processing related operation using the unique ID information.

FIG. 2 is a block diagram showing an I-mode according to an embodiment of the present invention.
5 is a flowchart illustrating a method of assigning IDs to a control station and a base station in an MT-2000 system.

First, in step S10, the network control center 100 determines whether or not the system has been initialized.

In this case, if the system has not been initialized in step S10, the network control center 1
00 proceeds to step S10 again, while if the system is initialized, proceeds to step S20. In step S20, the network control center 10
0 transmits the control station assignment ID data to all the control stations belonging to the system,
A D and group ID assignment operation is performed.

On the other hand, in step S30, each of the plurality of control stations receives the control station ID assignment data transmitted from the network control center 100, analyzes the ID assignment data, and analyzes its own unique ID and group. After recognizing the ID, the call processing-related operation is performed using the own ID and the group ID.

Next, in step S40, the plurality of control stations transmit base station ID assignment data to all base stations connected to the control stations, and perform unique ID assignment operations for all base stations.

In step S50, the plurality of base stations read their own type information stored in the internal memory to recognize their own types, and receive the base station ID allocation data transmitted by the control station. After that, the ID
It analyzes the allocation data to recognize its own unique ID, and performs a call processing related operation using its own unique ID and group ID.

FIG. 3 is a flowchart showing the detailed steps of step S20 in the method of assigning IDs to the control station and the base station in the IMT-2000 system shown in FIG. 2, and FIG. 4 is a flowchart showing the IMT shown in FIG. -2
FIG. 10 is a diagram showing a structure of control station ID allocation data transmitted by the network control center to a plurality of control stations in a method of allocating IDs to control stations and base stations in the 000 system.

First, in step S20-1, the network control center 100 determines whether an ID assignment request signal has been received from any one of the plurality of control stations.

In step S20-1, if no ID assignment request signal is received from any control station, the network control center 100 returns to step S20-1.
On the other hand, if an ID assignment request signal is received from any control station, the process proceeds to step S20-2. In step S20-2, the network control center 10
0 assigns a unique ID and a group ID by transmitting control station ID assignment data to the arbitrary control station.

Here, the structure of the control station ID assignment data is as follows:
As shown in FIG. 4, the data is 32-bit data composed of an 8-bit control station group ID area, an 8-bit control station ID area, a 16-bit reserved area, and the like.

In step S20-3, the network control center 100 determines whether or not all of the ID assigning operations for a plurality of control stations have been performed.

In this case, in step S20-3,
If all the ID assignment operations for the plurality of control stations have not been performed, the network control center 100 proceeds to step S20-1 again, while
If all the D assignment operations have been performed, the process proceeds to step S20-4. In step S20-4, the network control center 100 performs a management operation on a plurality of control stations using the ID information of all control stations.

FIG. 5 is a flowchart showing the detailed steps of step S40 in the method of assigning IDs to the control station and the base station in the IMT-2000 system shown in FIG. 2, and FIG. FIG. 9 is a diagram illustrating a structure of base station ID allocation data transmitted by a plurality of control stations to a plurality of base stations in a method of allocating IDs to a control station and a base station.

First, in step S40-1, each of the plurality of control stations determines whether an ID assignment request signal has been received from any one of the plurality of base stations managed by itself.

In this case, in step S40-1,
If the ID assignment request signal is not received from any one of the plurality of base stations managed by itself, the plurality of control stations proceed to step S40-1 again, while If an ID assignment request signal is received from any one of the base stations, step S40-2
Proceed to In step S40-2, the plurality of control stations transmit base station ID assignment data to any of the base stations and assign unique IDs respectively.

Here, the structure of the base station ID assignment data is as follows:
As shown in FIG. 6, the data is 32-bit data composed of a 13-bit base station ID area, a 3-bit base station type area, a 16-bit reserved area, and the like.

Next, in step S40-3,
The plurality of control stations each determine whether or not the ID assignment operation for all the plurality of base stations managed by the control stations has been performed.

In step S40-3, if the ID assignment operation for the plurality of base stations managed by itself is not entirely performed, the plurality of control stations return to step S40-
The process proceeds to step S40-4, on the other hand, if all ID assignment operations for a plurality of base stations managed by itself are performed. In step S40-4, the plurality of control stations respectively perform management operations on the plurality of base stations using ID information of all base stations connected thereto.

Although the technical concept of the present invention has been specifically described by the above-described preferred embodiments, the above-described embodiments are merely for explanation and not for limitation. It should be noted that Also,
It should be understood that those skilled in the art of the present invention can perform various embodiments within the scope of the technical idea of the present invention.

[0035]

As described above, according to the present invention, the IMT-
According to the method of assigning IDs to control stations and base stations in the 2000 system, a plurality of control stations are individually divided and managed by the network control center, and at the time of system initialization, a plurality of control stations are assigned to the control stations. By performing the operation of allocating the unique ID and the group ID and the operation of allocating the unique ID to a plurality of base stations by software, it is not necessary to install a ROM in the base station, so that the production cost is reduced only. Instead, when the information of the unique ID for each base station is changed, an excellent effect of enabling the operator to change the ID quickly and easily can be obtained.

[Brief description of the drawings]

FIG. 1 illustrates an IMT-200 according to one embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration of a network control center, a plurality of control stations, and a plurality of base station ID assigning apparatuses in the No. 0 system.

FIG. 2 illustrates an IMT-200 according to one embodiment of the present invention.
9 is a flowchart illustrating a method of assigning IDs to a control station and a base station in the system No. 0.

FIG. 3 is a flowchart showing detailed steps of step S20 in the method of assigning IDs to a control station and a base station in the IMT-2000 system shown in FIG.

FIG. 4 is a structural diagram of control station ID allocation data transmitted to a plurality of control stations by a network control center in the method of allocating IDs to control stations and base stations in the IMT-2000 system shown in FIG. 3;

FIG. 5 is a flowchart showing detailed steps of step S40 in the method of assigning IDs to a control station and a base station in the IMT-2000 system shown in FIG.

FIG. 6 is a structural diagram of base station ID allocation data transmitted by a plurality of control stations to a plurality of base stations in a method of allocating IDs to control stations and base stations in the present IMT-2000 system.

[Explanation of symbols]

 100 Network Control Center

Continued on the front page (72) Inventor I Kechul Republic of Korea 467-860 Kunkido Ichonkkun Bubarium Amiri San 136-1 Hyundai Electronics Industries Kampanee Limited F-term (reference) 5K024 AA61 AA71 BB07 CC11 DD05 GG03 5K051 AA09 DD15 CC01 EE01 EE02 FF01 HH17 KK10 5K067 AA44 DD17 EE10 EE16 HH23 LL00

Claims (5)

[Claims] 1. An IMT-2000 system comprising: a plurality of base stations; a plurality of control stations; and a network control center that manages the control stations and the base stations.
A method of allocating an ID to each control station and each base station, comprising: a first step of determining whether or not system initialization has been performed by the network control center; and Returning to the first step again, on the other hand, when the system initialization is performed, the control station ID assignment data is transmitted to all the control stations belonging to the network control center,
A second step of allocating unique control station IDs and group IDs corresponding to all control stations; and in each of the plurality of control stations, receiving control station ID allocation data transmitted by the network control center; A third step of analyzing the base station ID and group ID by analyzing the base station ID, and transmitting the base station ID assignment data to all base stations connected to the plurality of control stations. A fourth step of allocating a unique base station ID corresponding to the base station, and receiving, at each of the plurality of base stations, base station ID allocation data transmitted by the control station;
Analyzing the allocation data and recognizing its own base station ID.
A method of assigning a control station and a base station ID in a 2000 system. 2. The method according to claim 1, wherein the second step includes determining whether the network control center has received a first ID assignment request signal from any one of the plurality of control stations. The sixth step, and if the first ID assignment request signal is not received in the sixth step, the process proceeds to the sixth step again, while if the ID assignment request signal is received, The network control center transmits control station ID assignment data to the control station, and transmits a corresponding unique control station ID.
A seventh step of allocating a group ID and a group ID; an eighth step of determining whether or not all of the ID allocating operations for the plurality of control stations have been performed by the network control center; If not, proceed to the sixth step again,
In a case where the ID assignment operation has been entirely performed, the network control center performs a management operation on a plurality of control stations using a unique control station ID and a group ID assigned to the plurality of control stations. 9. A method for allocating IDs of a control station and a base station in an IMT-2000 system, comprising: 3. The method according to claim 2, wherein the control station ID assignment data includes a total of 32 bits including an 8-bit control station group ID area, an 8-bit control station ID area, and a 16-bit reservation area. A method of assigning IDs to a control station and a base station in an IMT-2000 system, wherein the IDs are data. 4. The method according to claim 1, wherein in the fourth step, a second ID assignment request signal is received from any one of a plurality of base stations belonging to each of the plurality of control stations. A tenth step of determining whether the second ID assignment request signal has not been received from any one of the base stations, and proceeding to the tenth step again, while the second ID assignment request signal is If received, the plurality of control stations provide the base station with a base station ID.
An eleventh step of transmitting allocation data and assigning a corresponding unique base station ID, and a twelfth step of determining whether or not all ID allocation operations have been performed on a plurality of base stations belonging to each of the plurality of control stations If the ID allocation operation has not been completely performed, the process proceeds to the tenth step again. On the other hand, if the ID allocation operation has been fully performed, the base station allocated to the plurality of base stations has not been allocated. A method of assigning IDs to a control station and a base station in an IMT-2000 system, the method comprising: performing a management operation on each of the plurality of base stations using a station ID. 5. The method according to claim 4, wherein the base station ID assignment data includes a 13-bit base station ID area,
A 32-bit data including a 3-bit base station type area and a 16-bit reserved area,
A method for assigning IDs to a control station and a base station in an MT-2000 system.